Nucleotide insertion kinetics opposite abasic lesions in DNA.
about
DNA polymerase II of Escherichia coli in the bypass of abasic sites in vivo.DNA sequence analysis of spontaneous mutagenesis in Saccharomyces cerevisiaeThe effect of the 2-amino group of 7,8-dihydro-8-oxo-2'-deoxyguanosine on translesion synthesis and duplex stabilityDNA oligonucleotides with A, T, G or C opposite an abasic site: structure and dynamicsDNA Synthesis across an Abasic Lesion by Human DNA Polymerase ιReplication through an abasic DNA lesion: structural basis for adenine selectivityDNA Synthesis across an Abasic Lesion by Yeast Rev1 DNA PolymeraseAmino Acid Templating Mechanisms in Selection of Nucleotides Opposite Abasic Sites by a Family A DNA PolymeraseContribution of Partial Charge Interactions and Base Stacking to the Efficiency of Primer Extension at and beyond Abasic Sites in DNAMutational specificity of gamma-radiation-induced guanine-thymine and thymine-guanine intrastrand cross-links in mammalian cells and translesion synthesis past the guanine-thymine lesion by human DNA polymerase etaProliferating cell nuclear antigen-dependent abasic site repair in Xenopus laevis oocytes: an alternative pathway of base excision DNA repairSolution conformation of an oligonucleotide containing a urea deoxyribose residue in front of a thymine.Influence of abasic and anucleosidic sites on the stability, conformation, and melting behavior of a DNA duplex: correlations of thermodynamic and structural dataTemplate-directed addition of nucleosides to DNA by the BfiI restriction enzymeRB69 DNA polymerase structure, kinetics, and fidelity.Bypass and termination at apurinic sites during replication of single-stranded DNA in vitro: a model for apurinic site mutagenesisComparison between DNA melting thermodynamics and DNA polymerase fidelity.Biological properties of single chemical-DNA adducts: a twenty year perspectiveDNA duplex stability: the role of preorganized electrostatics.Polymerase incorporation and miscoding properties of 5-chlorouracil.Difluorotoluene, a Nonpolar Isostere for Thymine, Codes Specifically and Efficiently for Adenine in DNA Replication.The discovery of error-prone DNA polymerase V and its unique regulation by RecA and ATPDifference between deoxyribose- and tetrahydrofuran-type abasic sites in the in vivo mutagenic responses in yeast.Kinetics of error generation in homologous B-family DNA polymerases.An abasic site in DNA. Solution conformation determined by proton NMR and molecular mechanics calculations.The effects of the ring fragmentation product of thymidine C5-hydrate on phosphodiesterases and klenow (exo-) fragment.Mechanism of mutation on DNA templates containing synthetic abasic sites: study with a double strand vectorMutagenic potentials of damaged nucleic acids produced by reactive oxygen/nitrogen species: approaches using synthetic oligonucleotides and nucleotides: survey and summaryReverse chemical mutagenesis: identification of the mutagenic lesions resulting from reactive oxygen species-mediated damage to DNA.Specificity of the mutator caused by deletion of the yeast structural gene (APN1) for the major apurinic endonuclease.Aberrant expression of N-methylpurine-DNA glycosylase influences patient survival in malignant gliomas.Mutation frequency and spectrum resulting from a single abasic site in a single-stranded vector.Blockage of polymerase-catalyzed DNA chain elongation by chemically modified cytosine residues in templates and the release of blockage for readthrough.Novel non-templated nucleotide addition reactions catalyzed by procaryotic and eucaryotic DNA polymerasesDihydrothymidine and thymidine glycol triphosphates as substrates for DNA polymerases: differential recognition of thymine C5-C6 bond saturation and sequence specificity of incorporation.Proliferating cell nuclear antigen promotes DNA synthesis past template lesions by mammalian DNA polymerase delta.Biochemical basis of SOS-induced mutagenesis in Escherichia coli: reconstitution of in vitro lesion bypass dependent on the UmuD'2C mutagenic complex and RecA protein.A thymidine triphosphate shape analog lacking Watson-Crick pairing ability is replicated with high sequence selectivity.Mechanisms by which herpes simplex virus DNA polymerase limits translesion synthesis through abasic sites.Activity of the purified mutagenesis proteins UmuC, UmuD', and RecA in replicative bypass of an abasic DNA lesion by DNA polymerase III.
P2860
Q24532905-6E81DE69-C108-477A-8DBE-246B237A8C10Q24548004-99BC6772-C5A9-41A8-BDDD-04DF738D347BQ24804691-03DB4AAB-3AFA-4B9D-A856-20D88A3358FDQ27649103-EB926561-8C4F-4060-B791-1921122D49BBQ27654769-5EC92CDB-3192-435C-B6E9-4CBAD0F33D4EQ27660600-75F66592-B259-49ED-8F51-145FB628D99DQ27666331-C960E335-2018-4491-A34A-02F073695BABQ27677160-E5EB4EA7-94D2-4153-BEF3-0537B255863FQ27679295-09D5F51F-8A1F-40B5-8947-17BBB2FF06C7Q28286703-A1349F24-5835-4937-ADC1-F716DC415BD3Q28645707-139F52CA-7D17-4C51-97F2-D1467E749E1CQ30894620-8E4D7D09-3018-43E8-A201-510B7187C185Q31105902-EC7D210F-A3B6-434B-ACE4-2F9FB330FBA1Q33339247-09E1FE80-E9CF-4F9A-9CDC-6FB4391EE27FQ33598642-04D8713A-AE8B-433A-A09D-97E19D086527Q33631558-D6BE27C8-FE01-4CDC-8C01-C2CED2CC9326Q33642760-EC750F3F-F506-4652-B9D7-07D249226596Q33649960-BA2C05D5-B039-4C49-B7B8-E73AFA82B051Q33737441-B7AF4A60-351E-421D-8715-70690A927B1EQ33798330-D0671682-88AF-4BA3-BF09-AE8D0D268628Q34078211-43CA65AD-AF3A-493F-8765-39BFA1BFD2F4Q34244975-B683E571-010B-443B-A2FE-F368921A1078Q34397180-0FD73829-AC9B-4090-9DCA-941F37DFB9BDQ34600540-EA2C16C4-A029-4881-88D3-E779D0255B0EQ34712938-4C886F73-3C55-4C4E-8F93-78C256BCF5C9Q34780836-AC6C484A-C061-430D-9AC9-E4EA2024A826Q34834214-2AE30A4C-E704-4649-A451-1B2111D62A6EQ35044983-1370C2F0-2E3B-4854-96C9-22B6B03B329DQ35586101-A7333412-8D4A-404B-9D56-1DE7F1C4DA67Q35686019-9E7C048A-FF60-4BE6-8BF8-3C249A07EAC4Q35830559-D9374B55-1064-4ABB-8AF6-A9E56D9FC365Q35837992-2986C2F9-E4CC-40BD-9C44-CB802741B085Q35925480-90F250C7-20DA-4163-BA26-E60EC923A67AQ36070698-E1619C43-E789-47B1-A0B9-42B22E3A8DD0Q36077494-559AAD9F-B221-4E7A-84F0-A16C936B33CAQ36179739-2875FD10-F7B6-43E0-A60D-01C7EB65F784Q36275662-9ECD4AD2-ABC2-49F0-A760-3966BBA6D373Q36588022-417F7507-62F0-43F7-A400-0E8BAC75DF1AQ37183424-239FEA20-E99C-4546-A9CC-4E726092CFE3Q37296938-7F29E986-7FE0-4A78-B787-C050614890F7
P2860
Nucleotide insertion kinetics opposite abasic lesions in DNA.
description
1987 nî lūn-bûn
@nan
1987年の論文
@ja
1987年学术文章
@wuu
1987年学术文章
@zh
1987年学术文章
@zh-cn
1987年学术文章
@zh-hans
1987年学术文章
@zh-my
1987年学术文章
@zh-sg
1987年學術文章
@yue
1987年學術文章
@zh-hant
name
Nucleotide insertion kinetics opposite abasic lesions in DNA.
@en
Nucleotide insertion kinetics opposite abasic lesions in DNA.
@nl
type
label
Nucleotide insertion kinetics opposite abasic lesions in DNA.
@en
Nucleotide insertion kinetics opposite abasic lesions in DNA.
@nl
prefLabel
Nucleotide insertion kinetics opposite abasic lesions in DNA.
@en
Nucleotide insertion kinetics opposite abasic lesions in DNA.
@nl
P2093
P1476
Nucleotide insertion kinetics opposite abasic lesions in DNA.
@en
P2093
P304
P407
P577
1987-05-01T00:00:00Z